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Government Science

Government Scientists Discover Entirely New Kind of Quantum Entanglement (vice.com) 28

An anonymous reader quotes a report from Motherboard: Scientists at Brookhaven National Laboratory have uncovered an entirely new kind of quantum entanglement, a phenomenon that causes particles to become weirdly linked, even across vast cosmic distances, reports a new study. The discovery allowed them to capture an unprecedented glimpse of the bizarre world inside atoms, the tiny building blocks of matter. The mind-bending research resolves a longstanding mystery about the nuclei of atoms, which contain particles called protons and neutrons, and could help shed light on topics ranging from quantum computing to astrophysics. The exciting discoveries took place at the Relativistic Heavy Ion Collider (RHIC), a specialized facility at Brookhaven in New York that can accelerate charged atoms, known as ions, to almost light speed. When these ions collide -- or even just pass near each other -- their interactions expose the inner workings of atoms, which are governed by the trippy laws of quantum mechanics. [...]

Now, for the first time ever, scientists at Brookhaven have captured interference patterns that are created by the entanglement of two particles with different charges, a breakthrough that has opened up a completely new window into the mysterious innards of atoms that make up visible matter in the universe, according to a study published on Wednesday in Science Advances. "There's never been any measurement in the past of interference between distinguishable particles," said Daniel Brandenburg, a physics professor at the Ohio State University who co-authored the new study, in a call with Motherboard. "That's the discovery; the application is that we get to use it to do some nuclear physics." Brandenburg and his colleagues achieved this milestone with the help of a sensitive detector called the Solenoidal Tracker at RHIC, or STAR, that captured interactions between gold ions that were boosted to the brink of light speed. Clouds of photons, which are particles that carry light, surround the ions and interact with another type of particle, called gluons, that hold atomic nuclei together. These encounters between the photons and the gluons set off a chain of events that ultimately created two new particles, called pions, which have opposite charges -- one positive and one negative. When these pions careened into the STAR detector, the precision instrument measured some of their key properties, such as velocity and angle of impact, which were then used to probe the size, shape, and arrangement of gluons inside the atomic nuclei with a precision that has never been achieved before.

Scientists have imaged atomic nuclei at lower energies before, but attempts to probe these structures at high energies has always produced a puzzling result. Nuclei in these experiments look way bigger than they should, according to models, an outcome that has puzzled scientists for decades. Now, the STAR collaboration has now solved this mystery by pinpointing a blurring effect that is linked to the photons in the experiment. Essentially, past studies captured one-dimensional glimpses of nuclei that did not account for important patterns in photons, such as their polarization direction. The new study included this polarization information, allowing Brandenburg and his colleagues to probe the nuclei from two angles, parallel and perpendicular to the photon's motion, producing a two-dimensional view that matches theoretical predictions. What's more, the team is even able to make out the rough positions of key particles in the nucleus, such as protons and neutrons, as well as the distribution of gluons. It also offers a new way to unravel persistent mysteries about the behavior of atoms at high energies. [...] Brandenburg hopes to repeat this technique, and versions of it, at RHIC and other facilities like the Large Hadron Collider, in order to tease out the long-hidden details inside atomic nuclei.

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Government Scientists Discover Entirely New Kind of Quantum Entanglement

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  • Just in time! (no pun intended. Really.) I've just about run out of videos on my youtube stream that tell me the same thing about the Higgs Boson, top Quarks hidden inside protons, and what those black holes do? This should add a whole slew of new ones eventually. (Even some snootily telling us all how this, like chatgpt, is 'not such a big deal.')
    • Clouds of photons, which are particles that carry light, surround the ions and interact with another type of particle, called gluons, that hold atomic nuclei together. These encounters between the photons and the gluons set off a chain of events that ultimately created two new particles, called pions...

      I wish you had mentioned how this discovery is bringing more information to "light".

    • by Roger W Moore ( 538166 ) on Thursday January 05, 2023 @09:35AM (#63181946) Journal
      It's definitely a very interesting new technique but it is definitely not the first time we have observed entanglement between distinguishable particles. Kaons and anti-kaons were created in entangled states at least as far back as the early 1990's with CPLEAR at CERN and later with DAPHNE. It might be the first time with electrically charged particles though.
  • by ISayWeOnlyToBePolite ( 721679 ) on Wednesday January 04, 2023 @11:58PM (#63181242)

    (This is not the paper linked in TFA but a more detailed article) https://www.bnl.gov/newsroom/n... [bnl.gov]

    • by HiThere ( 15173 )

      Yes. And apparently it's not a new kind of entanglement, but rather a new kind of quantum interference. That's not the same thing at all. "A new use for entanglement" would be a more accurate description.

      But, yeah, the PR from the lab itself called it "a new kind of entanglement".

      And it's a really interesting new use for entanglement.

  • by Tony Isaac ( 1301187 ) on Thursday January 05, 2023 @12:28AM (#63181272) Homepage

    An anonymous reader quotes a report from Motherboard

    Thanks to quantum entanglement, the anonymous submitter has now been identified.

  • And the new discovery is not a new form of entanglement but that they detected interference patterns between entangled particles. They detected something!

    I wonder how much more funding they will need? /s
    • by Anonymous Coward
      Not a physicist here, but to my understanding, what the researchers claimed is
      • - that so far only entanglement between indistinguishable particles had been demonstrated,
      • - that the interference patterns they detected indicated that the pions of the generated pair were entangled with each other, and
      • - that this was something new because the involved positive and negative pion are distinguishable due to their different (positive vs. negative) charge

      Which of these claims do you think are false or misle

  • The discovery allowed them to capture an unprecedented glimpse of the bizarre world inside atoms, the tiny building blocks of matter.

    An article about quantum entanglement felt the need to explain what atoms are. Can't they (we) assume that the people who would probably read such an article have, at least, a little basic high-school level knowledge? Just sayin' ...

    ... the nuclei of atoms, which contain particles called protons and neutrons.

    (sigh)

  • by VeryFluffyBunny ( 5037285 ) on Thursday January 05, 2023 @05:00AM (#63181526)
    Here's a summary, courtesy of ChatGPT:
    • Scientists at Brookhaven National Laboratory made a new discovery about quantum entanglement
    • The discovery allowed them to see inside atoms in a new way
    • The research took place at the Relativistic Heavy Ion Collider (RHIC) in New York
    • Scientists captured interference patterns created by the entanglement of two particles with different charges
    • The discovery was made using a detector called the Solenoidal Tracker at RHIC (STAR)
    • STAR captured interactions between gold ions that were boosted to the brink of light speed
    • These interactions exposed the inner workings of atoms governed by quantum mechanics
    • The discovery has opened up a new window into the mysterious inside of atoms
    • It could help with research in quantum computing and astrophysics
    • The research may also help explain a longstanding mystery about the size of atomic nuclei
    • The team hopes to repeat the technique at RHIC and other facilities such as the Large Hadron Collider.

    You're welcome ;)

  • is now you post a /summary...whew...

  • Comment removed based on user account deletion
  • We're slashdot. We're very well aware that private scientists do not do basic research that will, if ever, take decades to produce a payback for investors.

  • "gluons, that hold atomic nuclei together"

    HL3 confirmed.

  • It's an interesting achievement and I think it will help to re-discover the world of physics. I like that any new discoveries give a lot of possibilities that were not available or understood before to study. It's nice that this was obtained by teamwork, it can be used in an essay type read more [writingbros.com] example of similar work. I myself hope that now the study of the quantum world and the study of the nuclei of atoms will go much faster.

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